Ultra-high-Q free-space coupling to microtoroid resonators

谐振器 低语长廊波浪 联轴节(管道) 电磁感应透明 光学 物理 光纤 共振(粒子物理) 光功率 光电子学 材料科学 激光器 粒子物理学 冶金
作者
Sartanee Suebka,Euan McLeod,Judith Su
出处
期刊:Light-Science & Applications [Springer Nature]
卷期号:13 (1) 被引量:8
标识
DOI:10.1038/s41377-024-01418-0
摘要

Abstract Whispering gallery mode (WGM) microtoroid resonators are one of the most sensitive biochemical sensors in existence, capable of detecting single molecules. The main barrier for translating these devices out of the laboratory is that light is evanescently coupled into these devices though a tapered optical fiber. This hinders translation of these devices as the taper is fragile, suffers from mechanical vibration, and requires precise positioning. Here, we eliminate the need for an optical fiber by coupling light into and out from a toroid via free-space coupling and monitoring the scattered resonant light. A single long working distance objective lens combined with a digital micromirror device (DMD) was used for light injection, scattered light collection, and imaging. We obtain Q-factors as high as $$1.6\times {10}^{8}$$ 1.6 × 10 8 with this approach. Electromagnetically induced transparency (EIT)-like and Fano resonances were observed in a single cavity due to indirect coupling in free space. This enables improved sensing sensitivity. The large effective coupling area (~10 μm in diameter for numerical aperture = 0.14) removes the need for precise positioning. Sensing performance was verified by combining the system with the frequency locked whispering evanescent resonator (FLOWER) approach to perform temperature sensing experiments. A thermal nonlinear optical effect was examined by tracking the resonance through FLOWER while adjusting the input power. We believe that this work will be a foundation for expanding the implementation of WGM microtoroid resonators to real-world applications.

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